NUMBER 3 PLEASE!! I do not
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NUMBER 3 PLEASE!! I do not
quite understand how to get to the final answer, if...
if an inelastic collision of two carts on a frictionless track collides, what is the momentum...
if an inelastic collision of two carts on a frictionless track collides, what is the momentum of cart A and B, before and after the collision? cart A has a mass of .5025 kg and cart B has a mass of .5491 kg. carts A initial velocity is .5595 m/s then collides and sticks to cart B, which was initially at rest, with a final velocity of .1622 m/s.
Guided Problem 7.4 An unequal match On a low-friction track, two carts coupled together are initially...
Guided Problem 7.4 An unequal match On a low-friction track, two carts coupled together are initially moving to the right at 2.0 m/s. The rear cart has an inertia of 2.0 kg, and the lead cart's inertia is one-third of that. An explosive charge attached to the coupling is ignited remotely, releasing 27 J of energy. One-third of that energy is dissipated to incoherent energy, such as noise, thermal energy, and damage to the carts. Use the Earth reference frame...
Detemine the kinetic energy of the system before the collision. Express your answer with the appropriate...
Detemine the kinetic energy of the system before the collision. Express your answer with the appropriate units. K Value Units Submit Request Answer ▼PartC Determine the kinetic energy of the system after the collision. Express your answer with the appropriate units. I Value Units Submit Request Answer Part D Is the collision elastic, inelastic, or totally inelastic? elastic nelastic totally inelastic .. Review | Constants Periodic Table Somebody tells you that (Figure 1) shows a displacement-versus-time graph of two carts...
A 1.0-kg standard cart collides on a low-friction track with cart A. The standard cart has...
A 1.0-kg standard cart collides on a low-friction track with cart A. The standard cart has an initial x component of velocity of +0.40 m/s, and cart A is initially at rest. After the collision the x component of velocity of the standard cart is +0.20 m/s and the x component of velocity of cart A is +0.65 m/s . After the collision, cart A continues to the end of the track and rebounds with its speed unchanged. Before the...
Cart 1 Cart 2 Cart 1 Cart 2 no m/s LO After Collision Before Collision Two...
Cart 1 Cart 2 Cart 1 Cart 2 no m/s LO After Collision Before Collision Two lab carts have the same mass and are free to move on a horizontal track. The carts' wheels have negligible mass. Cart 1 travels to the right at 1.0 m/s and collides with cart 2, which is initially at rest, as shown at left above. Cart 2 has a compressed spring-loaded plunger with a non-negligible amount of stored energy. During the collision, the spring-loaded...
Two carts of mass ma and mb are on an airtrack (so that uk=0) inclined at...
Two carts of mass ma and mb are on an airtrack (so that uk=0) inclined at an angle theta and moving toward each other at speeds vai and vbi when they are a distance xo apart. Immediately after they collide, cart b is observed to be moving down the track at speed vbf. Write an expression for vaf immediately after the collision. As a simple test of your expression, check if ma=mb then delta va=-delta vb.
HELLO! Please answer all the questions! don't leave any of them out! Thanks! Answer all the...
HELLO! Please answer all the questions! don't leave
any of them out! Thanks!
Answer all the questions asked please!
om 8. A ball of silly putty hits and sticks to a bowling ball that was initially at rest. After the collision, the total kinetic energy of the bowling ball and silly! putty is O (A) less than the kinetic energy of the silly putty before the collision O (B) more than the kinetic energy of the silly putty before the...
A 0.500 kg cart (A) with a velocity of +2.00 m/s collides with a 1.50 kg...
A 0.500 kg cart (A) with a velocity of +2.00 m/s collides with a 1.50 kg cart (B) moving with a velocity of -1.00 m/s on a low-friction track. After the collision, cart A is moving at -1.50 m/s. a. What is the final velocity of cart B? b. Draw a velocity vs. time plot (by hand) for the interaction. Draw both carts’ velocities on the same plot, and label your axes with an appropriate scale. The time of the...
Number 3 CASIO 2. A group of students are performing an experiment in class using collision...
Number 3
CASIO 2. A group of students are performing an experiment in class using collision carts on a track. Ani 8.0 kg cart moving to the right at 4.0 m/s hits a 4.0 kg cart moving to the left at 6.0 m/s. Immediately after the collision, the 4.0 kg cart moves to the right at 3.0 m/s. What are the speed and direction of the 8.0 kg cart after the collision? 3. A2600kg SUv traveling west at 1 5...
A cart on a table (cart A) collides with another cart that is initially at rest...
A cart on a table (cart A) collides with another cart that is initially at rest (cart B). After the collision, both carts are moving. The diagrams below represent snapshots of the carts before and after the collision. The arrows on the diagrams indicate the velocity vectors of the carts at the instants shown. (The vectors are drawn to scale.) Consider the time interval between the two instants shown. During this time interval, is the magnitude of the average acceleration...
Guided Problem 7.4 An unequal match On a low-friction track, two carts coupled together are initially moving to the right at 2.0 m/s. The rear cart has an inertia of 2.0 kg, and the lead cart's inertia is one-third of that. An explosive charge attached to the coupling is ignited remotely, releasing 27 J of energy. One-third of that energy is dissipated to incoherent energy, such as noise, thermal energy, and damage to the carts. Use the Earth reference frame...
Detemine the kinetic energy of the system before the collision. Express your answer with the appropriate units. K Value Units Submit Request Answer ▼PartC Determine the kinetic energy of the system after the collision. Express your answer with the appropriate units. I Value Units Submit Request Answer Part D Is the collision elastic, inelastic, or totally inelastic? elastic nelastic totally inelastic .. Review | Constants Periodic Table Somebody tells you that (Figure 1) shows a displacement-versus-time graph of two carts...
Cart 1 Cart 2 Cart 1 Cart 2 no m/s LO After Collision Before Collision Two lab carts have the same mass and are free to move on a horizontal track. The carts' wheels have negligible mass. Cart 1 travels to the right at 1.0 m/s and collides with cart 2, which is initially at rest, as shown at left above. Cart 2 has a compressed spring-loaded plunger with a non-negligible amount of stored energy. During the collision, the spring-loaded...
HELLO! Please answer all the questions! don't leave
any of them out! Thanks!
Answer all the questions asked please!
om 8. A ball of silly putty hits and sticks to a bowling ball that was initially at rest. After the collision, the total kinetic energy of the bowling ball and silly! putty is O (A) less than the kinetic energy of the silly putty before the collision O (B) more than the kinetic energy of the silly putty before the...
Number 3
CASIO 2. A group of students are performing an experiment in class using collision carts on a track. Ani 8.0 kg cart moving to the right at 4.0 m/s hits a 4.0 kg cart moving to the left at 6.0 m/s. Immediately after the collision, the 4.0 kg cart moves to the right at 3.0 m/s. What are the speed and direction of the 8.0 kg cart after the collision? 3. A2600kg SUv traveling west at 1 5...
A cart on a table (cart A) collides with another cart that is initially at rest (cart B). After the collision, both carts are moving. The diagrams below represent snapshots of the carts before and after the collision. The arrows on the diagrams indicate the velocity vectors of the carts at the instants shown. (The vectors are drawn to scale.) Consider the time interval between the two instants shown. During this time interval, is the magnitude of the average acceleration...
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